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Journal articles on the topic 'Leaf Streak'

Author: Grafiati
Published: 5 June 2025
Last updated: 1 August 2025

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1

Dabek, A. J., and J. M. Waller. "Black leaf streak and viral leaf streak: New banana diseases in East Africa." Tropical Pest Management 36, no. 2 (1990): 157–58. http://dx.doi.org/10.1080/09670879009371463.

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2

Ganry, Jacky. "Black Leaf Streak Disease in Martinique." Fruits 65, no. 6 (2010): 325. http://dx.doi.org/10.1051/fruits/2010035.

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3

Tubajika, K. M., J. S. Russin, and S. A. Harrison. "Analysis of Bacterial Leaf Streak Epidemics on Winter Wheat in Louisiana." Plant Disease 83, no. 6 (1999): 541–48. http://dx.doi.org/10.1094/pdis.1999.83.6.541.

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Studies were conducted to characterize spatial and temporal progress of bacterial leaf streak disease (Xanthomonas translucens pv. translucens) on susceptible (Florida 304) and moderately resistant (Terral 101) winter wheat cultivars. Epidemics were initiated with rifampicin-resistant strain 88–14rif of X. translucens pv. translucens by establishing point sources of inoculum in plot centers. Incidence of bacterial leaf streak was assessed five times in 1995 and three times in 1996, starting from the first observation of leaf streak symptoms. Rainfall, temperature, and wind speed were significa
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4

Chaudhary, R. C., and V. T. John. "Occurrence of Bacterial Leaf Streak (BLS) in Nigeria." International Rice Research Newsletter 13, no. 3 (1988): 30. https://doi.org/10.5281/zenodo.7136064.

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This article 'Occurrence of Bacterial Leaf Streak (BLS) in Nigeria' appeared in the International Rice Research Newsletter series, created by the International Rice Research Institute (IRRI). The primary objective of this publication was to expedite communication among scientists concerned with the development of improved technology for rice and for rice based cropping systems. This publication will report what scientists are doing to increase the production of rice in as much as this crop feeds the most densely populated and land scarce nations in the world.
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5

Nayak, D. K., H. S. Chakrabarti, and A. Pal. "White Leaf Streak Disease on Rice in India." International Rice Research Newsletter 12, no. 6 (1987): 23. https://doi.org/10.5281/zenodo.7128128.

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This article 'White Leaf Streak Disease on Rice in India' appeared in the International Rice Research Newsletter series, created by the International Rice Research Institute (IRRI). The primary objective of this publication was to expedite communication among scientists concerned with the development of improved technology for rice and for rice based cropping systems. This publication will report what scientists are doing to increase the production of rice in as much as this crop feeds the most densely populated and land scarce nations in the world.
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6

Tubajika, K. M., B. L. Tillman, J. S. Russin, C. A. Clark, and S. A. Harrison. "Relationship Between Flag Leaf Symptoms Caused by Xanthomonas translucens pv. translucens and Subsequent Seed Transmission in Wheat." Plant Disease 82, no. 12 (1998): 1341–44. http://dx.doi.org/10.1094/pdis.1998.82.12.1341.

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The relationship between foliar disease symptoms on parent plants, seed contamination by the causal bacterium (Xanthomonas translucens pv. translucens), and subsequent development of bacterial leaf streak in wheat was studied in microplots and in the laboratory to determine the role of seed transmission in disease epidemiology. Microplot experiments were carried out during the 1994-95 and 1995-96 growing seasons using seed harvested in Baton Rouge, Louisiana, in 1994 and 1995, respectively. Treatments were seed lots from plants with differing levels of bacterial leaf streak severity on the fla
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7

ALIZADEH, A., and H. RAHIMIAN. "Bacterial leaf streak of Gramineae in Iran." EPPO Bulletin 19, no. 1 (1989): 113–17. http://dx.doi.org/10.1111/j.1365-2338.1989.tb00136.x.

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8

Lundsgaard, T. "Physicochemical Characterization of Festuca Leaf Streak Virus." Journal of General Virology 68, no. 3 (1987): 931–35. http://dx.doi.org/10.1099/0022-1317-68-3-931.

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9

TUSHEMEREIRWE, W. K., and J. M. WALLER. "Black leaf streak (Mycosphaerella fijiensis) in Uganda." Plant Pathology 42, no. 3 (1993): 471–72. http://dx.doi.org/10.1111/j.1365-3059.1993.tb01525.x.

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10

Ma, Zengfeng, Gang Qin, Yuexiong Zhang, et al. "Bacterial leaf streak 1 encoding a mitogen‐activated protein kinase confers resistance to bacterial leaf streak in rice." Plant Journal 107, no. 4 (2021): 1084–101. http://dx.doi.org/10.1111/tpj.15368.

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11

Anderson, Nolan R., Carl A. Bradley, and Kiersten A. Wise. "Diplodia Leaf Streak of Corn: A Diagnostic Guide." Plant Health Progress 22, no. 2 (2021): 159–63. http://dx.doi.org/10.1094/php-01-21-0002-dg.

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The official common name of the foliar disease on corn is Diplodia leaf streak, often given the shorthand nomenclature DLS. The only known host of DLS is corn (Zea mays). The fungus that causes DLS is Stenocarpella macrospora (syn. Diplodia macrospora). DLS symptoms can be confused with several common foliar diseases of corn. This guide details symptoms and signs, as well as pathogen identification.
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12

DUVEILLER, E. "Bacterial leaf streak or black chaff of cereals." EPPO Bulletin 24, no. 1 (1994): 135–57. http://dx.doi.org/10.1111/j.1365-2338.1994.tb01057.x.

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13

Naidu, V. D. "Bacterial Leaf Streak (BLS) Incidence in Nellore, Andhra Pradesh." International Rice Research Newsletter 10, no. 3 (1985): 24–25. https://doi.org/10.5281/zenodo.7099559.

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This article 'Bacterial Leaf Streak (BLS) Incidence in Nellore, Andhra Pradesh' appeared in the International Rice Research Newsletter series, created by the International Rice Research Institute (IRRI). The primary objective of this publication was to expedite communication among scientists concerned with the development of improved technology for rice and for rice based cropping systems. This publication will report what scientists are doing to increase the production of rice in as much as this crop feeds the most densely populated and land scarce nations in the world.
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14

Makino, Seiko, Akiko Sugio, Frank White, and Adam J. Bogdanove. "Inhibition of Resistance Gene-Mediated Defense in Rice by Xanthomonas oryzae pv. oryzicola." Molecular Plant-Microbe Interactions® 19, no. 3 (2006): 240–49. http://dx.doi.org/10.1094/mpmi-19-0240.

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Xanthomonas oryzae pv. oryzae and the closely related X. oryzae pv. oryzicola cause bacterial blight and bacterial leaf streak of rice, respectively. Although many rice resistance (R) genes and some corresponding avirulence (avr) genes have been characterized for bacterial blight, no endogenous avr/R gene interactions have been identified for leaf streak. Genes avrXa7 and avrXa10 from X. oryzae pv. oryzae failed to elicit the plant defense-associated hypersensitive reaction (HR) and failed to prevent development of leaf streak in rice cultivars with the corresponding R genes after introduction
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15

You, C. P., M. M. Xiang, and Y. X. Zhang. "First Report of Bacterial Leaf Streak of Strelitzia reginae Caused by Burkholderia cepacia." Plant Disease 98, no. 5 (2014): 682. http://dx.doi.org/10.1094/pdis-02-13-0205-pdn.

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In 2011, the bacterial leaf streak disease of the monocotyledonous flowering plant, commonly known as bird of paradise (Strelitzia reginae), occurred in a nursery in Guangzhou, Guangdong Province, China. Lesions on diseased leaves began as water-soaked leaf spots or streaks near the central and secondary veins, eventually expanded along veins and became brown necrotic streaks. Occasionally, during wet conditions, seedlings were completely blighted. The disease incidence was about 12% in the nursery. Bacteria were consistently isolated on nutrient agar (NA) (4) from surface-sterilized symptomat
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16

Silva, Ivanete Tonole, Fabrício Ávila Rodrigues, José Rogério Oliveira, et al. "Wheat Resistance to Bacterial Leaf Streak Mediated by Silicon." Journal of Phytopathology 158, no. 4 (2010): 253–62. http://dx.doi.org/10.1111/j.1439-0434.2009.01610.x.

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17

CHEN, Cai-hong, Wei ZHENG, Xiao-man HUANG, Duan-pin ZHANG, and Xing-hua LIN. "Major QTL Conferring Resistance to Rice Bacterial Leaf Streak." Agricultural Sciences in China 5, no. 3 (2006): 216–20. http://dx.doi.org/10.1016/s1671-2927(06)60041-2.

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18

Van Beek, N. A. M., D. Lohuis, J. Dijkstra, and D. Peters. "Morphogenesis of Festuca Leaf Streak Virus in Cowpea Protoplasts." Journal of General Virology 66, no. 11 (1985): 2485–89. http://dx.doi.org/10.1099/0022-1317-66-11-2485.

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19

de Bellaire, Luc de Lapeyre, Eric Fouré, Catherine Abadie, and Jean Carlier. "Black Leaf Streak Disease is challenging the banana industry." Fruits 65, no. 6 (2010): 327–42. http://dx.doi.org/10.1051/fruits/2010034.

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20

Premalatha, Dath A., and S. Devadath. "Influence of Bacterial Leaf Streak (BLS) on Bacterial Blight (BB) of Rice." International Rice Research Newsletter 10, no. 4 (1985): 10. https://doi.org/10.5281/zenodo.7099604.

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This article 'Influence of Bacterial Leaf Streak (BLS) on Bacterial Blight (BB) of Rice' appeared in the International Rice Research Newsletter series, created by the International Rice Research Institute (IRRI). The primary objective of this publication was to expedite communication among scientists concerned with the development of improved technology for rice and for rice based cropping systems. This publication will report what scientists are doing to increase the production of rice in as much as this crop feeds the most densely populated and land scarce nations in the world.
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21

Shahjahan, A. K. M., M. C. Rush, J. P. Jones, and D. E. Groth. "First Report of the Occurrence of White Leaf Streak in Louisiana Rice." Plant Disease 82, no. 11 (1998): 1282. http://dx.doi.org/10.1094/pdis.1998.82.11.1282c.

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White leaf streak, caused by Mycovellosiella oryzae (Deighton and Shaw) Deighton (syn. Ramularia oryzae), was found in Louisiana rice. The symptoms closely resemble those of narrow brown leaf spot caused by Cercospora janseana (Racib.) O. Const. (syn. C. oryzae (Miyake)), and it is difficult to distinguish between these two diseases. Initially both produce similar elongated light brown lesions, but later the lesions of white leaf streak become wider with a whitish center and are surrounded by a narrow light brown margin (2,3). The disease was first observed at the Rice Research Station, Crowle
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22

Manzoor, Aleena, Hadeed Ahmad, Maryam Aslam, and Muhammad Atif. "Intervention of Bacterial Leaf Streak of Wheat Through Neem Mediated Copper and Zinc Hybrid Nanoparticles." Journal of Agriculture and Biology 3, no. 1 (2025): 115–24. https://doi.org/10.55627/agribiol.003.01.1132.

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Bacterial leaf streak (BLS), caused by Xanthomonas translucens pv. undulosa, is a significant disease affecting wheat crops, leading to considerable yield loss globally. In response to this, green-synthesized nanoparticles offer a promising alternative to traditional chemical treatments, providing both disease management and environmental sustainability. The study evaluated the effectiveness of green-synthesized nanoparticles, including Copper (Cu), Zinc (Zn), and their combination (Cu+Zn), in controlling bacterial leaf streak (BLS) in wheat. A greenhouse trial was conducted using a Completely
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23

Ahmad, Waqas, Muhammad Azeem, Muhammad Atiq, et al. "DETERMINATION OF SOURCE OF RESISTANCE IN WHEAT AGAINST BACTERIAL LEAF STREAK AND MORPHO-BIOCHEMICAL CHARACTERIZATION OF XANTHOMONAS TRANSLUCENS PV. UNDULOSA." Agricultural Sciences Journal 7, no. 1 (2025): 18–29. https://doi.org/10.56520/asj.v7i1.497.

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Current research effort was directed focusing on evaluating the wheat germplasm for determination of source of resistance against the bacterial leaf streak (BLS) disease and the morpho-biochemical characterization of Xanthomonas translucens pv. undulosa (Xtu), the causative agent of bacterial leaf streak of wheat. The bacterium Xtu showed yellow, mucoid, circular and convex shaped growth when cultured on artificial growth media (NA). Gram staining, Catalase, KOH and Kovacs oxidase tests were employed that confirmed the Xtu as gram negative (-ve) bacterium. Fifteen wheat varieties/advanced line
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24

Vuylsteke, D. R., J. d'A Hughes, and K. Rajab. "Banana Streak Badnavirus and Cucumber Mosaic Cucumovirus in Farmers' Fields in Zanzibar." Plant Disease 82, no. 12 (1998): 1403. http://dx.doi.org/10.1094/pdis.1998.82.12.1403b.

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Symptoms resembling those of viral leaf streak disease, caused by banana streak badnavirus (BSV), were observed in May 1998 on two banana (Musa spp.) landraces grown from farmer-collected propagules in a farmer's field at Kiboje Uchukuni, Zanzibar. Those showing symptoms were “French plantain” cv. Mzuzu and “Cavendish” banana cv. Mtwike. Leaf symptoms were expressed as chlorotic streaks and blotches. Leaf samples were indexed by immunosorbent electron microscopy with BSV and cucumber mosaic cucumovirus (CMV) antibodies, using partially purified preparations (2). The two landraces tested positi
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25

Saraiva, Lorenzo de Amorim, Florence Polegato Castelan, Renata Shitakubo, et al. "Black Leaf Streak Disease Affects Starch Metabolism in Banana Fruit." Journal of Agricultural and Food Chemistry 61, no. 23 (2013): 5582–89. http://dx.doi.org/10.1021/jf400481c.

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26

Erdmann, J. B., D. N. Shepherd, D. P. Martin, A. Varsani, E. P. Rybicki, and H. Jeske. "Replicative intermediates of maize streak virus found during leaf development." Journal of General Virology 91, no. 4 (2009): 1077–81. http://dx.doi.org/10.1099/vir.0.017574-0.

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27

Saraiva, L. A., F. P. Castelan, B. R. Cordenunsi, and M. Chillet. "EFFECT OF BLACK LEAF STREAK DISEASE ON BANANA FRUIT QUALITY." Acta Horticulturae, no. 986 (April 2013): 339–43. http://dx.doi.org/10.17660/actahortic.2013.986.36.

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28

Redinbaugh, M. G., D. L. Seifers, T. Meulia, et al. "Maize fine streak virus, a New Leafhopper-Transmitted Rhabdovirus." Phytopathology® 92, no. 11 (2002): 1167–74. http://dx.doi.org/10.1094/phyto.2002.92.11.1167.

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A previously uncharacterized virus was isolated from fall-planted sweet corn (Zea mays L., Syngenta GSS 0966) leaves showing fine chlorotic streaks. Symptomatic plants were negative in enzyme-linked immunosorbent assay against many maize viruses, but reacted weakly with antisera to Sorghum stunt mosaic virus suggesting a distant relationship between the viruses. The virus was readily transmitted by vascular puncture inoculation (VPI), but not by leaf-rub inoculation. Symptoms on maize included dwarfing and fine chlorotic streaks along intermediate and small veins that developed 12 to 17 days p
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29

Hartman, T., J. Harbour, B. Tharnish, J. Van Meter, and T. A. Jackson-Ziems. "Agronomic Factors Associated with Bacterial Leaf Streak Development Caused by Xanthomonas vasicola pv. vasculorum in Corn." Phytopathology® 110, no. 6 (2020): 1132–38. http://dx.doi.org/10.1094/phyto-02-20-0043-r.

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In 2016, the bacterium Xanthomonas vasicola pv. vasculorum was reported causing bacterial leaf streak on Nebraska corn. Prior to this report, the pathogen was reported on corn only in South Africa. Hence, there was a lack of information about the effects of corn production practices on bacterial leaf streak development. A survey of growers, crop consultants, extension agents, and others in the field of agriculture was initiated during the 2016 and 2017 corn growing seasons to examine agronomic factors that may affect the disease. Survey respondents were asked to submit a symptomatic leaf sampl
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30

Ji, Xuehan, Junjing Xue, Jiancheng Shi, et al. "Noninvasive Raman spectroscopy for the detection of rice bacterial leaf blight and bacterial leaf streak." Talanta 282 (January 2025): 126962. http://dx.doi.org/10.1016/j.talanta.2024.126962.

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31

Rao, P. S. "Across-Season Survival of Xanthomonas campestris pv. oryzicola, Causal Agent of Bacterial Leaf Streak (BLS)." International Rice Research Newsletter 12, no. 2 (1987): 27. https://doi.org/10.5281/zenodo.7122407.

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This article 'Across-Season Survival of Xanthomonas campestris pv. oryzicola, Causal Agent of Bacterial Leaf Streak (BLS)' appeared in the International Rice Research Newsletter series, created by the International Rice Research Institute (IRRI). The primary objective of this publication was to expedite communication among scientists concerned with the development of improved technology for rice and for rice based cropping systems. This publication will report what scientists are doing to increase the production of rice in as much as this crop feeds the most densely populated and land scarce n
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32

Xie, G. L., and T. W. Mew. "A Leaf Inoculation Method for Detection of Xanthomonas oryzae pv. oryzicola from Rice Seed." Plant Disease 82, no. 9 (1998): 1007–11. http://dx.doi.org/10.1094/pdis.1998.82.9.1007.

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A leaf-inoculation method for detecting Xanthomonas oryzae pv. oryzicola in rice seed was developed and tested. The method is based on inoculating leaf segments on agar with seed washings in a moist chamber. Freshness of inoculated leaf segments is maintained by addition of 75 to 100 ppm benzimidazole to the 1% water agar after sterilization. Using cells from pure cultures, the minimum inoculum concentration to initiate leaf streak lesions on the segments was found to be 103 CFU/ml. Inoculum prepared from seeds harvested from severely infected mother plants induced lesions typical of leaf stre
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33

Shekhawat, G. S., and D. N. Srivastava. "Mode of Infection in Bacterial Leaf Streak of Rice and Histology of the Diseased Leaf1)." Journal of Phytopathology 74, no. 1 (2008): 84–90. http://dx.doi.org/10.1111/j.1439-0434.1972.tb04649.x.

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34

Su, Hong-Ji, Ting-Hsuan Hung, and Meng-Ling Wu. "First Report of Banana Streak Virus Infecting Banana Cultivars (Musa spp.) in Taiwan." Plant Disease 81, no. 5 (1997): 550. http://dx.doi.org/10.1094/pdis.1997.81.5.550a.

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Banana (Musa sapientam L.) is an economically important crop for both export and local consumption in Taiwan. Recently, leaf symptoms characteristic of banana streak disease (1) were found on banana cv. Mysore (AAB group) introduced from Australia in the germ plasm collection of the Taiwan Banana Research Institute. The citrus mealybug (Planococus citri) has been shown to transmit banana streak virus (BSV) but not banana bunchy top virus or cucumber mosaic virus (CMV) (2). When mealybugs were fed on leaves of diseased Mysore banana and transferred to healthy banana cv. Cavendish seedlings in a
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35

Wahyu Soesilo, Agung, Poppy Arisandy, Indah Anita Sari, and Rudi Harimurti. "Relationship Analysis Between Leaf-Stomata Characteristics with Cocoa Resistance to Vascular-Streak Dieback." Pelita Perkebunan (a Coffee and Cocoa Research Journal) 32, no. 1 (2016): 10–21. http://dx.doi.org/10.22302/iccri.jur.pelitaperkebunan.v32i1.220.

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Characteristics of leaf-stomata indicate having relationship with the resistance of cocoa to vascular-streak dieback (VSD) caused by Ceratobasidum theobromae. This research has objective to identify the relationship between leaf-stomata haracteristicsto VSD resistance in order to develop criteria for selection. Trial was establised in randomized-complete block design with three blocks as replications in Kaliwining Experimental Station of Indonesian Coffee and Cocoa Research Institute (ICCRI) using 15 clones which had different background on VSD resistance. Leaf-stomata of the tested clones wer
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36

Nuwamanya, E., Y. Baguma, E. Atwijukire, et al. "Cassava brown streak disease effects on leaf metabolites and pigment accumulation." African Crop Science Journal 25, no. 1 (2017): 33. http://dx.doi.org/10.4314/acsj.v25i1.3.

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37

Ramakrishnan, Sai Mukund, Jagdeep Singh Sidhu, Shaukat Ali, Navjot Kaur, Jixiang Wu, and Sunish K. Sehgal. "Molecular characterization of bacterial leaf streak resistance in hard winter wheat." PeerJ 7 (July 15, 2019): e7276. http://dx.doi.org/10.7717/peerj.7276.

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Bacterial leaf streak (BLS) caused by Xanthomonas campestris pv. translucens is one of the major bacterial diseases threatening wheat production in the United States Northern Great Plains (NGP) region. It is a sporadic but widespread wheat disease that can cause significant loss in grain yield and quality. Identification and characterization of genomic regions in wheat that confer resistance to BLS will help track resistance genes/QTLs in future wheat breeding. In this study, we evaluated a hard winter wheat association mapping panel (HWWAMP) containing 299 hard winter wheat lines from the US
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38

Brakke, Myron K. "Degradation of Wheat Streak Mosaic Virus Capsid Protein During Leaf Senescence." Phytopathology 80, no. 12 (1990): 1401. http://dx.doi.org/10.1094/phyto-80-1401.

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39

Kung'u, J. N., A. A. Seif, and J. M. Waller. "Black leaf streak and other foliage diseases of bananas in Kenya." Tropical Pest Management 38, no. 4 (1992): 359–61. http://dx.doi.org/10.1080/09670879209371727.

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40

Tang, D., W. Wu, W. Li, H. Lu, and A. J. Worland. "Mapping of QTLs conferring resistance to bacterial leaf streak in rice." Theoretical and Applied Genetics 101, no. 1-2 (2000): 286–91. http://dx.doi.org/10.1007/s001220051481.

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41

Gopi, R., H. Kalita, R. K. Avasthe, Ashish Yadav, M. Singh, and D. Thapa. "Does Pestalotiopsis royenae Cause Leaf Streak of Large Cardamom?" Current Science 114, no. 10 (2018): 2155. http://dx.doi.org/10.18520/cs/v114/i10/2155-2160.

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42

Bai, Q. R., S. Han, Y. Y. Xie, R. Dong, J. Gao, and Y. Li. "First Report of Daylily Leaf Streak Caused by Kabatiella microsticta in China." Plant Disease 96, no. 10 (2012): 1579. http://dx.doi.org/10.1094/pdis-04-12-0381-pdn.

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Daylily (Hemerocallis spp.) is an herbaceous, perennial plant, cultivated for its flowers. Daylily is sold in Asian markets as fresh or dried flowers (the flowers of some species, e.g., Hemerocallis citrina, are edible) or as the corm, which is used for medicinal purposes. In June 2011, daylily leaf streak was found in a nursery of Jilin Agricultural University, Jilin Province, China. Symptoms included water-soaked, irregular spots along the leaf midvein that turned orange to reddish brown and eventually enlarged to coalesce into extensive, necrotic streaks along the length of the leaf, as pre
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43

Li, R. H., and E. Medalla. "Resistance to Bacterial Leaf Streak (BLS) in Hybrid Rice and Parental Lines." International Rice Research Newsletter 13, no. 5 (1988): 13. https://doi.org/10.5281/zenodo.7136396.

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This article 'Resistance to Bacterial Leaf Streak (BLS) in Hybrid Rice and Parental Lines' appeared in the International Rice Research Newsletter series, created by the International Rice Research Institute (IRRI). The primary objective of this publication was to expedite communication among scientists concerned with the development of improved technology for rice and for rice based cropping systems. This publication will report what scientists are doing to increase the production of rice in as much as this crop feeds the most densely populated and land scarce nations in the world.
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44

Gao, Jian-Guo, and Annette Nassuth. "Cytological changes induced by wheat streak mosaic virus in cereal leaf tissues." Canadian Journal of Botany 70, no. 1 (1992): 19–25. http://dx.doi.org/10.1139/b92-003.

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Cytological changes induced by wheat streak mosaic virus in cereal leaf tissues were studied at the light microscope level. Starting 4–5 days after inoculating the first leaves, a number of cylindrical inclusions were present in the dense cytoplasm of the second wheat leaf epidermal cells. Amorphous inclusions could also be identified in the epidermal cells at late infection stages (from 10 days post inoculation), often associated with deformed nuclei. In mesophyll cells of wheat, barley, and triticale, virus infection induced dense cytoplasm around enlarged nuclei and cytopathie structures wi
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45

Kassi, Jean-Martial F. K., Henri P. N’Guessan, Seydou Tuo, Brahima Camara, and Daouda Koné. "Fungitoxic Potentialities of NECO 50 EC in an Integrated Black Sigatoka Management Strategy in Industrial Dessert Banana Plantation." European Journal of Biology and Biotechnology 2, no. 4 (2021): 47–54. http://dx.doi.org/10.24018/ejbio.2021.2.4.232.

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Black leaf streak disease (BLSD) is the major constraint on banana production around the world. In Côte d'Ivoire, this disease is found in all banana-growing areas and its management involves the use of large volumes of agrochemicals. This mode of production is increasingly denounced by consumers from regarding fruit contamination by phytopharmaceuticals. The objective of this study is to promote the use of NECO 50 EC, a plant extract-based biofungicide in an integrated black Sigatoka management system. The fungitoxic effect of NECO 50 EC was assessed in vitro on Mycosphaerella fijiensis conid
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Rao, S. Chander, R. D. V. J. Prasada Rao, V. Manoj Kumar, Divya S. Raman, M. A. Raoof, and R. D. Prasad. "First Report of Tobacco streak virus Infecting Safflower (Carthamus tinctorius) in Maharashtra, India." Plant Disease 87, no. 11 (2003): 1396. http://dx.doi.org/10.1094/pdis.2003.87.11.1396b.

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Safflower, Carthamus tinctorius L. (Asteraceae), is extensively cultivated in India, China, and other parts of Asia for edible oil, dyeing agent, and its medicinal value. In 2003, safflower entry (NARI-6) in the All-India Coordinated Research Project on Oilseeds (Safflower) grown in the experimental fields of M/s Syngenta India Ltd., Aurangabad (Maharashtra State, India) exhibited symptoms of veinal and leaf necrosis, necrotic streaks on the stem, necrosis of the terminal bud, and ultimately plant death. The disease was attributed to Tobacco streak virus (TSV) because sunflower growing adjacen
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Li, Bin, Baoping Liu, Changlin Shan, et al. "Antibacterial activity of two chitosan solutions and their effect on rice bacterial leaf blight and leaf streak." Pest Management Science 69, no. 2 (2012): 312–20. http://dx.doi.org/10.1002/ps.3399.

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Strømeng, Gunn Mari, May Bente Brurberg, Eva Vike, and Venche Talgø. "First Report of Daylily Leaf Streak Caused by Kabatiella microsticta on Hemerocallis spp. in Norway." Plant Health Progress 16, no. 1 (2015): 36–38. http://dx.doi.org/10.1094/php-br-14-0022.

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Daylily leaf streak has previously been reported from Japan, United States, and China. If the disease becomes widespread in Norway, it may severely reduce the ornamental value and thus the use of daylilies in gardens and landscape plantings. Accepted by publication 13 February 2015. Published 4 March 2015.
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Baiyeri, K. P., M. Pillay, and A. Tenkouano. "Phenotypic Relationships Among Growth, Yield, and Black Leaf Streak Disease Responses ofMusaGenotypes." Journal of Crop Improvement 21, no. 1 (2008): 41–54. http://dx.doi.org/10.1300/j411v21n01_04.

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LI, Bei-bei, Ying-gao LIU, Tao WU, et al. "OsBGLU19 and OsBGLU23 regulate disease resistance to bacterial leaf streak in rice." Journal of Integrative Agriculture 18, no. 6 (2019): 1199–210. http://dx.doi.org/10.1016/s2095-3119(18)62117-3.

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